CN108301644B - Avoid shelter from rain pavilion view facility of step voltage injury - Google Patents

Abstract

The invention provides a rain shelter pavilion landscape facility capable of avoiding step voltage damage, which comprises a rain shelter pavilion main body and a second sliding block, wherein the rain shelter pavilion main body is provided with a plurality of sliding blocks; the center of the top end surface of the base is fixedly connected with the rain shelter pavilion main body which is of an integrated structure with the base; the bottom end face of the fixed plate is provided with a layer of second air filtering cotton cloth layer, and the second air filtering cotton cloth layer is fixedly arranged on the fixed plate through two bolts; the top end face of the fixed plate is fixedly connected with the push-pull rod. According to the rain shelter pavilion, the first air filtering cotton cloth layers are embedded at the connecting positions of the top end surfaces of the two steps and the base, rainwater dropping along the edges of the side pavilions of the rain shelter pavilion can drop on the first air filtering cotton cloth layers under the conditions of rain and thunderstorm, the rainwater is directly adsorbed by the first air filtering cotton cloth layers, the splashing phenomenon cannot occur, and the rainwater is prevented from dropping on the top end surfaces of the base to the maximum extent.

Description

Avoid shelter from rain pavilion view facility of step voltage injury

Technical Field

The invention belongs to the technical field of landscape rain sheltering facilities, and particularly relates to a rain sheltering pavilion landscape facility capable of avoiding step voltage damage.

Background

At present, in public open squares, the scenic pavilions are generally arranged, the scenic pavilions can enable the landscapes in the squares to be more unique, and meanwhile, rain sheltering places can be provided for pedestrians in rainy days. However, if the weather of thunderstorm weather appears suddenly, current sight booth can't satisfy pedestrian's lightning-arrest demand, because of the pedestrian is standing simultaneously when taking shelter from the rain in order to splash on the coplanar of water stain, if take place the thunder and lightning shock carelessly, thereby it causes crowd's collective injury to produce strong step voltage at the coplanar of being covered with water stain because of water stain formation good thunderbolt passageway and people contact, has the potential safety hazard.

For example, application No.: the invention discloses a public rain-sheltering seat with an integrated structure, which comprises two bottom plates, two seat plates and two supporting plates, and further comprises an arc-shaped rain baffle, wherein each seat plate comprises an upper connecting plate and a lower connecting plate, one bottom plate, one supporting plate, one lower connecting plate and one upper connecting plate are sequentially connected, two ends of the arc-shaped rain baffle are respectively connected with the end parts of the two upper connecting plates, the public rain-sheltering seat with the integrated structure is bent by a metal plate to form the integrated structure, and the bottom plates and the seat plates are horizontally arranged. The public rain sheltering seat with the integrated structure has the advantages that: the structure is simple, the integral structure is formed by bending the metal plate, the production cost is low, and the device is suitable for mass configuration in public places; the rain-proof curtain has reliable quality, is not easy to be damaged, has good rain-proof effect, and can also play a better rain-proof effect even in windy weather.

The patent plays a corresponding public sheltering and rain sheltering function with the existing viewing pavilion, but has the problem of potential safety hazard in the above way as the existing viewing pavilion.

For example, application No. 201720037215.X a landscape rain shelter, comprising: the rain shielding device comprises a base, wherein a support rod is vertically arranged on the base, a stable slide rail is arranged at the outer edge of the base, a rain shielding platform is arranged at the top end of the support rod, and a hoisting slide rail is arranged along the outer edge of the rain shielding platform; the rain shielding curtain comprises unit plates, a first sliding cable is arranged at the upper end of each unit plate, a second sliding cable is arranged at the lower end of each unit plate, the first sliding cables are slidably arranged on the hoisting slide rails, the second sliding cables are slidably connected with the stabilizing slide rails, the unit plates are arranged in a plurality, and two adjacent unit plates are connected through rain-proof cloth. The landscape rain shelter booth is simple in structure and convenient to assemble, can be stably fixed to the ground through the anchor bolts, is convenient to arrange in a landscape area compared with a traditional landscape booth, and can provide a rain shelter space for tourists very conveniently in rainy and snowy weather.

The patent also has the problem of potential safety hazard as the prior sight-seeing pavilion.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and a rain shelter pavilion landscape facility for avoiding the damage of the step voltage is provided, so as to achieve the purpose of more practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a rain shelter pavilion landscape facility capable of avoiding step voltage damage, which aims to solve the problems that the existing landscape pavilion cannot meet the lightning protection requirement of pedestrians, and if lightning shock happens inadvertently, a good lightning stroke channel is formed by water stains and people contact the same plane full of the water stains, so that strong step voltage is generated to cause collective damage to people.

The invention aims to avoid the damage of step voltage to the landscape facilities of the rain shelter pavilion and the effect thereof, and the invention is achieved by the following specific technical means:

a rain shelter pavilion landscape facility capable of avoiding step voltage damage comprises a rain shelter pavilion main body, rain shelter pavilion side pavilions, a landscape decorative disc, a base, steps, a first sliding groove, a square rubber block, a first air filtering cotton cloth layer, an edge arc structure, a second sliding groove, a water squeezing device, a plastic grasping rod, a universal ball joint, a water squeezing block, a large arc structure, a small arc structure, a first sliding block, a water stain wiping device, a fixing plate, a push-pull rod, a bolt, a second air filtering cotton cloth layer and a second sliding block; the center of the top end face of the base is fixedly connected with the rain shelter pavilion main body which is in an integral structure with the base, the left side and the right side of the rain shelter pavilion main body are fixedly connected with a group of rain shelter side pavilions which are in an inner arc structure, and the arc bottom ends of the two groups of rain shelter side pavilions are fixedly connected with the top end face of the base; the interior of the rain shelter pavilion main body is fixedly connected with the landscape decorative disc; the front end and the rear end of the base are respectively provided with the step which is integrated with the base; the first air filtering cotton cloth layer is embedded at the joint of the top end surfaces of the two steps and the base; the second step block of the two steps is provided with one first sliding groove; a group of water squeezing devices is arranged on each of the two first air filtering cotton cloth layers; the water squeezing device consists of a plastic gripping rod, a universal ball joint, a water squeezing block and a first sliding block; the bottom end face of the water squeezing block is in contact with the first air filtering cotton cloth layer, and the top end face of the water squeezing block is rotatably connected with the plastic gripping rod through a group of universal ball joints; the side end face of the water squeezing block is connected in the first sliding groove adjacent to the water squeezing block in a sliding mode through a group of first sliding blocks; therefore, the wringing device reciprocates left and right along the first chute; fifteen groups of square rubber blocks which are distributed at intervals are fixedly embedded at the positions, corresponding to the sheltering positions of the two groups of rain sheltering pavilions, on the top end surface of the base; the front end and the rear end of the top end face of the base, which correspond to the sheltering positions of the two groups of rain sheltering pavilion side pavilions, are provided with the second sliding grooves; a group of water stain wiping devices are connected in a sliding manner in two second sliding grooves formed in the top end face of the base and shielded by each rain shelter pavilion side pavilion; the water stain wiping device consists of a fixed plate, a push-pull rod, a bolt, a second air filtering cotton cloth layer and a second sliding block; the front side and the rear side of the bottom end face of the fixed plate are respectively connected in the second sliding grooves in a sliding manner through a group of second sliding blocks; the bottom end face of the fixed plate is provided with a layer of second air filtering cotton cloth layer, the second air filtering cotton cloth layer is fixedly arranged on the fixed plate through two bolts, and the bottom end face of the second air filtering cotton cloth layer is 2.5cm away from the top end face of the base; the top end face of the fixed plate is fixedly connected with the push-pull rod.

Furthermore, the top end surfaces of the two first air filtering cotton cloth layers and the top end surface of the base are located on the same horizontal plane.

Furthermore, the thickness of the two first air filtering cotton cloth layers is consistent with the height of the step block of the step.

Furthermore, the length of the two first air filtering cotton cloth layers is consistent with the length of the interval between the edges of the two rain shelter side pavilions.

Furthermore, the left end and the right end of the two first air filtering cotton cloth layers are both in edge arc structures.

Furthermore, the top end face of the water squeezing block and the top end face of the base are located on the same horizontal plane in the installation state of the water squeezing device, and the thickness of the water squeezing block is two thirds of the thickness of the first air filtering cotton cloth layer.

Furthermore, one end of the bottom end surface of the water squeezing block is of a large arc structure, the other end of the bottom end surface of the water squeezing block is of a small arc structure, and the large arc structure and the small arc structure are tangent.

Further, the top end faces of thirty groups of the square rubber blocks are 3cm higher than the top end face of the base.

Compared with the prior art, the invention has the following beneficial effects:

according to the rain shelter pavilion, the first air filtering cotton cloth layers are embedded at the connecting positions of the top end surfaces of the two steps and the base, and the two first air filtering cotton cloth layers are arranged, so that rainwater dropping along the edges of the side pavilions of the rain shelter pavilion can drop on the first air filtering cotton cloth layers under the conditions of rain days and thunderstorms, the rainwater is directly adsorbed by the first air filtering cotton cloth layers, the splashing phenomenon cannot occur, and the rainwater is prevented from dropping on the top end surfaces of the base to the maximum extent; furthermore, through the arrangement of the water squeezing device, when the first air filter cotton cloth layer is full of adsorbed rainwater, a person taking shelter from rain can grasp the plastic grasping rod to pull the water squeezing block to slide along the first sliding groove, so that the water squeezing block squeezes the first air filtering cotton cloth layer when sliding, the absorbed rainwater is squeezed out, one end of the bottom end surface of the water squeezing block is of a large arc structure, the other end of the bottom end surface of the water squeezing block is of a small arc structure, and the large arc structure is tangent with the small arc structure, which is beneficial to extruding the first air filtering cotton cloth layer, firstly, about 70 percent of rainwater in the first air filtering cotton cloth layer is extruded from the end of the large circular arc structure, then carry out the secondary extrusion operation by small circle arc structure end again when reciprocating sliding, extrude the rainwater about 25% among the remaining 30% in the first filtration cotton layer to first filtration cotton layer continuously carries out the absorption operation.

Fifteen groups of square rubber blocks which are distributed at intervals are fixedly embedded at positions, corresponding to the shielding positions of the two groups of rain sheltering pavilion side pavilions, of the top end face of the base, and the top end faces of the thirty groups of square rubber blocks are 3cm higher than the top end face of the base; further, through the setting of water stain wiping arrangement, when doing benefit to and be covered with water stain on square rubber piece, personnel's accessible pulling water stain wiping arrangement that keeps away makes second filtration cotton layer wherein slide along square rubber piece top end face, water stain absorption on the square rubber piece to avoid forming good thunderbolt passageway because the existence that water stain on the square rubber piece and water stain on the base top end face covered with water stain.

Drawings

Fig. 1 is a front end axial view structural schematic diagram of the present invention.

Fig. 2 is a schematic view of the present invention at a part enlarged in fig. 1.

Fig. 3 is a schematic view of the present invention at a part B in fig. 1.

Fig. 4 is a schematic front view of the present invention.

FIG. 5 is a partial cross-sectional structural view of C-C of FIG. 4 in accordance with the present invention.

Fig. 6 is a partial enlarged structural view at D in fig. 4 according to the present invention.

Fig. 7 is a side view schematic of the present invention.

Fig. 8 is a rear end axial view of the present invention.

In the figure: 1-rain shelter pavilion body, 101-rain shelter pavilion side, 102-landscape decorative disc, 2-base, 201-step, 20101-first chute, 202-square rubber block, 203-first air filtering cotton cloth layer, 20301-edge arc structure, 204-second chute, 3-water squeezing device, 301-plastic grasping rod, 302-universal ball joint, 303-water squeezing block, 30301-large arc structure, 30302-small arc structure, 304-first slider, 4-water stain wiping device, 401-fixing plate, 402-push-pull rod, 403-bolt, 404-second air filtering cotton cloth layer and 405-second slider.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 8:

the invention provides a rain shelter pavilion landscape facility capable of avoiding step voltage damage, which comprises a rain shelter pavilion main body 1, a rain shelter pavilion side pavilion 101, a landscape decorative disc 102, a base 2, a step 201, a first sliding groove 20101, a square rubber block 202, a first air filtering cotton cloth layer 203, an edge arc-shaped structure 20301, a second sliding groove 204, a water squeezing device 3, a plastic grasping rod 301, a universal ball joint 302, a water squeezing block 303, a large arc-shaped structure 30301, a small arc-shaped structure 30302, a first sliding block 304, a water stain wiping device 4, a fixing plate 401, a push-pull rod 402, a bolt 403, a second air filtering cotton cloth layer 404 and a second sliding block 405; the center of the top end face of the base 2 is fixedly connected with the rain shelter pavilion main body 1 which is in an integral structure with the base, the left side and the right side of the rain shelter pavilion main body 1 are fixedly connected with a group of rain shelter pavilion side pavilions 101 which are in an inner arc structure, and the arc bottom ends of the two groups of rain shelter pavilion side pavilions 101 are fixedly connected with the top end face of the base 2; the interior of the rain shelter main body 1 is fixedly connected with the landscape decorative disc 102; the front end and the rear end of the base 2 are respectively provided with the step 201 which is integrated with the base; the first air filter cotton cloth layer 203 is embedded at the joint of the top end surfaces of the two steps 201 and the base 2; the second step block of the two steps 201 is provided with one first chute 20101; a group of the water squeezing devices 3 is arranged on each of the two first air filtering cotton cloth layers 203; the wringing device 3 consists of a plastic gripping rod 301, a universal ball joint 302, a wringing block 303 and a first sliding block 304; the bottom end surface of the water squeezing block 303 is in contact with the first air filtering cotton cloth layer 203, and the top end surface of the water squeezing block 303 is rotatably connected with the plastic gripping rod 301 through a group of universal ball joints 302; the side end face of the water squeezing block 303 is connected in the first sliding groove 20101 adjacent to the position of the water squeezing block in a sliding mode through a group of first sliding blocks 304; therefore, the wringing device 3 reciprocates left and right along the first chute 20101; fifteen groups of square rubber blocks 202 which are distributed at intervals are fixedly embedded on the top end face of the base 2 corresponding to the sheltering positions of the two groups of rain shelter pavilion side pavilions 101; the front end and the rear end of the top end face of the base 2, which correspond to the sheltering positions of the two groups of rain shelter pavilion side pavilions 101, are provided with the second sliding grooves 204; a group of water stain wiping devices 4 are connected in a sliding manner in two second sliding grooves 204 formed in the top end face of the base 2 and shielded by each group of rain shelter pavilion side pavilions 101; the water stain wiping device 4 consists of a fixing plate 401, a push-pull rod 402, a bolt 403, a second air filtering cotton cloth layer 404 and a second sliding block 405; the front side and the rear side of the bottom end face of the fixed plate 401 are respectively connected in the two second sliding grooves 204 in a sliding manner through a group of second sliding blocks 405; a layer of second air filtration cotton cloth layer 404 is arranged on the bottom end face of the fixing plate 401, the second air filtration cotton cloth layer 404 is fixedly installed on the fixing plate 401 through two bolts 403, and the bottom end face of the second air filtration cotton cloth layer 404 is 2.5cm away from the top end face of the base 2; the top end surface of the fixing plate 401 is fixedly connected with the push-pull rod 402.

The top end surfaces of the two first air filter cotton cloth layers 203 and the top end surface of the base 2 are in the same horizontal plane.

The thicknesses of the two first air filtering cotton cloth layers 203 are consistent with the height of the step block of the step 201, and the adsorption capacity of the first air filtering cotton cloth layers 203 to rainwater is increased.

Wherein, two the length of first filtration cotton cloth layer 203 and two sets of shelter from rain pavilion side pavilion 101 is most marginal between the spaced length consistent, does benefit to under rainy day and the thunderstorm day condition, follows the rainwater that shelter from rain pavilion side pavilion 101 border was dripped can drip on first filtration cotton cloth layer 203, by the direct absorption of first filtration cotton cloth layer 203, the phenomenon of splashing can not appear, furthest avoids the rainwater to drip on the top end face of base 2.

The left end and the right end of the two first air filtration cotton cloth layers 203 are both edge arc structures 20301.

The top end face of the water squeezing block 303 and the top end face of the base 2 are in the same horizontal plane when the water squeezing device 3 is installed, and the thickness of the water squeezing block 303 is two thirds of the thickness of the first air filtering cotton cloth layer 203, so that the water squeezing block 303 can squeeze the first air filtering cotton cloth layer 203 to squeeze rainwater adsorbed by the first air filtering cotton cloth layer 203.

One end of the bottom end surface of the water squeezing block 303 is a large arc structure 30301, the other end of the bottom end surface of the water squeezing block 303 is a small arc structure 30302, and the large arc structure 30301 and the small arc structure 30302 are tangent to each other, so that when the first air filtering cotton cloth layer 203 is squeezed, about 70% of rainwater in the first air filtering cotton cloth layer 203 is squeezed out from the large arc structure 30301, then secondary squeezing operation is carried out from the small arc structure 30302 during reciprocating sliding, about 25% of the residual 30% of rainwater in the first air filtering cotton cloth layer 203 is squeezed out, and the first air filtering cotton cloth layer 203 is continuously subjected to adsorption operation.

Wherein, thirty groups the top terminal surface of square rubber piece 202 all is higher than base 2's top terminal surface 3cm, does benefit to under the thunderstorm weather condition, is located two sets of rain sheltering pavilion side pavilion 101 shelters from the personnel of taking shelter from of position department can stand thirty groups on the square rubber piece 202, avoid contacting 2 top terminal surfaces of base that probably are covered with water stain to thereby take place to produce because of water stain formation good thunderbolt passageway and people contact when taking place the thunder electric shock and produce powerful stride step voltage and cause crowd's collective injury at 2 top terminal surfaces of base that are covered with water stain.

The specific use mode and function of the embodiment are as follows:

under the conditions of rain and thunderstorm, pedestrians without rain sheltering tools can temporarily enter the lower part sheltered by two groups of rain shelter pavilion side pavilions 101 for sheltering from rain, a first air filtering cotton cloth layer 203 is embedded at the joint of the top end surfaces of two steps 201 and the base 2, the arrangement of the two first air filtering cotton cloth layers 203 is favorable for rainwater dropping along the edge of the rain shelter pavilion side pavilion 101 on the first air filtering cotton cloth layer 203 under the conditions of rain and thunderstorm, the rainwater is directly absorbed by the first air filtering cotton cloth layer 203 without splashing, the rainwater is prevented from dropping on the top end surface of the base 2 to the maximum extent so as to prevent the top end surface from slipping off and falling down due to the fact that the top end surface of the base 2 is full of water stains, and the water squeezing device 3 is arranged on the first air filtering cotton cloth layer 203 and is favorable for rainwater absorption of the first air filtering cotton cloth layer 203, a rain sheltering person can grasp the plastic grasping rod 301 to pull the water squeezing block 303 to slide along the first sliding groove 20101, so that the water squeezing block 303 squeezes the first air filter cotton cloth layer 203 during sliding, the adsorbed rainwater in the first air filter cotton cloth layer is squeezed out, one end of the bottom end surface of the water squeezing block 303 is a large arc structure 30301, the other end of the bottom end surface of the water squeezing block 303 is a small arc structure 30302, and the large arc structure 30301 and the small arc structure 30302 are tangent to each other, so that about 70% of rainwater in the first air filter cotton cloth layer 203 is squeezed out from the large arc structure 30301 when the first air filter cotton cloth layer 203 is squeezed, then secondary squeezing operation is carried out from the small arc structure 30302 when the first air filter cotton cloth layer 203 is squeezed out, and about 25% of the rest 30% of rainwater in the first air filter cotton cloth layer 203 is squeezed out, so that the first air filter cotton layer 203 can continuously conduct; when under the thunderstorm condition, be located two sets ofly rain sheltering personnel who shelters from rain pavilion side pavilion 101 position department can stand on thirty square rubber pieces 202 of group, avoid contacting 2 top end faces of base that probably are covered with water stain, thereby it causes crowd's collective injury to take place to produce strong step voltage because of water stain formation good thunderbolt passageway and people contact 2 top end faces of base that are covered with water stain when avoiding if taking place the thunder electric shock, and if be covered with water stain on the square rubber piece 202, rain sheltering personnel accessible pulling water stain wiping arrangement 4 makes second air filter cotton layer 404 wherein slide along square rubber piece 202 top end face, adsorb the water stain on the square rubber piece 202, in order to avoid forming good thunderbolt passageway with the water stain on the base 2 top end face that is covered with water stain because the existence of water stain on the square rubber piece 202.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (8)

1. The utility model provides an avoid shelter from rain pavilion view facility of step voltage injury which characterized in that: the rain shelter pavilion landscape facility capable of avoiding the step voltage damage comprises a rain shelter pavilion main body, rain shelter pavilion side pavilions, a landscape decorative disc, a base, a step, a first sliding groove, a square rubber block, a first air filtering cotton cloth layer, an edge arc structure, a second sliding groove, a water squeezing device, a plastic grasping rod, a universal ball joint, a water squeezing block, a large arc structure, a small arc structure, a first sliding block, a water stain wiping device, a fixing plate, a push-pull rod, a bolt, a second air filtering cotton cloth layer and a second sliding block; the center of the top end face of the base is fixedly connected with the rain shelter pavilion main body which is in an integral structure with the base, the left side and the right side of the rain shelter pavilion main body are fixedly connected with a group of rain shelter side pavilions which are in an inner arc structure, and the arc bottom ends of the two groups of rain shelter side pavilions are fixedly connected with the top end face of the base; the interior of the rain shelter pavilion main body is fixedly connected with the landscape decorative disc; the front end and the rear end of the base are respectively provided with the step which is integrated with the base; the first air filtering cotton cloth layer is embedded at the joint of the top end surfaces of the two steps and the base; the second step block of the two steps is provided with one first sliding groove; a group of water squeezing devices is arranged on each of the two first air filtering cotton cloth layers; the water squeezing device consists of a plastic gripping rod, a universal ball joint, a water squeezing block and a first sliding block; the bottom end face of the water squeezing block is in contact with the first air filtering cotton cloth layer, and the top end face of the water squeezing block is rotatably connected with the plastic gripping rod through a group of universal ball joints; the side end face of the water squeezing block is connected in the first sliding groove adjacent to the water squeezing block in a sliding mode through a group of first sliding blocks; therefore, the wringing device reciprocates left and right along the first chute; fifteen groups of square rubber blocks which are distributed at intervals are fixedly embedded at the positions, corresponding to the sheltering positions of the two groups of rain sheltering pavilions, on the top end surface of the base; the front end and the rear end of the top end face of the base, which correspond to the sheltering positions of the two groups of rain sheltering pavilion side pavilions, are provided with the second sliding grooves; a group of water stain wiping devices are connected in a sliding manner in two second sliding grooves formed in the top end face of the base and shielded by each rain shelter pavilion side pavilion; the water stain wiping device consists of a fixed plate, a push-pull rod, a bolt, a second air filtering cotton cloth layer and a second sliding block; the front side and the rear side of the bottom end face of the fixed plate are respectively connected in the second sliding grooves in a sliding manner through a group of second sliding blocks; the bottom end face of the fixed plate is provided with a layer of second air filtering cotton cloth layer, the second air filtering cotton cloth layer is fixedly arranged on the fixed plate through two bolts, and the bottom end face of the second air filtering cotton cloth layer is 2.5cm away from the top end face of the base; the top end face of the fixed plate is fixedly connected with the push-pull rod.

2. A rain shelter booth landscape architecture to avoid damage from a step voltage as in claim 1, wherein: the top end surfaces of the two first air filtering cotton cloth layers and the top end surface of the base are located on the same horizontal plane.

3. A rain shelter booth landscape architecture to avoid a step voltage hazard as in claim 1 or 2, wherein: the thickness of the two first air filtering cotton cloth layers is consistent with the height of the step block of the step.

4. A rain shelter booth landscape architecture to avoid damage from a step voltage as in claim 3, wherein: the length of the two first air filtering cotton cloth layers is consistent with the length of the interval between the most edges of the two rain shelter side pavilions.

5. A rain shelter booth landscape architecture to avoid damage from a step voltage as in claim 4, wherein: two both ends are edge arc structure about the first filtration cotton layer.

6. A rain shelter booth landscape architecture to avoid damage from a step voltage as in claim 3, wherein: wherein under the installation state of the wringing device, the top end face of the wringing block and the top end face of the base are positioned on the same horizontal plane, and the thickness of the wringing block is two thirds of the thickness of the first air filtration cotton cloth layer.

7. A rain shelter booth landscape architecture to avoid damage from a step voltage as in claim 6, wherein: one end of the bottom end surface of the water squeezing block is of a large arc structure, the other end of the bottom end surface of the water squeezing block is of a small arc structure, and the large arc structure and the small arc structure are tangent.

8. A rain shelter booth landscape architecture to avoid damage from a step voltage as in claim 1, wherein: the top end faces of thirty groups of the square rubber blocks are all 3cm higher than the top end face of the base.

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